公开(公告)号：US20230323545A1

公开(公告)日：2023-10-12

申请号：US18131691

申请日：2023-04-06

申请人： UGSI Solutions, Inc.

发明人： Mark Kushman ,  Billie Fritz ,  Chris Levash

IPC分类号： C25B9/15 ,  C25B11/034 ,  C25B1/04 ,  C25B1/26 ,  C25B15/08

CPC分类号： C25B9/15 ,  C25B11/034 ,  C25B1/04 ,  C25B1/26 ,  C25B15/083

摘要： An electrolytic cell includes an inlet for receiving fluids into a first side of the electrolytic cell, an outlet opposite the inlet at a second side of the electrolytic cell where fluids exit the electrolytic cell, a cell body positioned between the inlet and the outlet having a plurality of bipolar electrode plates spaced apart, a first space formed between the inlet and the plurality of bipolar electrode plates, and a first flow diverter positioned within the first space. The first flow diverter includes a plurality of channels that adjust a flow of fluids flowing into the cell body from the inlet. A system using the electrolytic cells and methods of using the system are also included.

公开(公告)号：US11118275B2

公开(公告)日：2021-09-14

申请号：US16549575

申请日：2019-08-23

申请人： UGSI Solutions, Inc.

发明人： Billie Fritz ,  Brent A. Simmons

IPC分类号： B08B5/02 ,  C25B15/00 ,  C25B9/70

摘要： The present invention relates to a method of cleaning electrolytic cells that includes: (a) directing a base solution comprising water into an array of electrolytic cells; and (b) removing contaminants from at least one of the electrolytic cells with air turbulence provided by an injection of compressed air into the electrolytic cell. The injection of compressed air is provided by an air sparging system in fluid communication with an inlet portion of the at least one electrolytic cell. A self-cleaning electrolytic cell system is further included.

公开(公告)号：US20240190736A1

公开(公告)日：2024-06-13

申请号：US18534174

申请日：2023-12-08

申请人： UGSI Solutions, Inc.

发明人： Chris Levash ,  Joshua Thaddeus Kurniawan ,  Robin Giguere ,  Billie Fritz

IPC分类号： C02F1/74 ,  B01F23/213 ,  C02F1/00

CPC分类号： C02F1/74 ,  B01F23/2132 ,  C02F1/008 ,  C02F2101/30

摘要： An aerator for use in removal of volatile organic compounds includes: a pipe float configured to float partially submerged on a water surface; a nozzle extending out of a top of the pipe float; a sleeve frame extending down from a bottom of the pipe float; a submersible motor and pump extending into the sleeve frame; and a bottom base attached to the sleeve frame. A system and method of removing volatile organic compounds is also included.

公开(公告)号：US20210371996A1

公开(公告)日：2021-12-02

申请号：US17404397

申请日：2021-08-17

申请人： UGSI Solutions, Inc.

发明人： Billie Fritz ,  Brent A. Simmons

IPC分类号： C25B15/00 ,  B08B5/02 ,  C25B9/70

摘要： The present invention relates to a method of cleaning electrolytic cells that includes: (a) directing a base solution comprising water into an array of electrolytic cells; and (b) removing contaminants from at least one of the electrolytic cells with air turbulence provided by an injection of compressed air into the electrolytic cell. The injection of compressed air is provided by an air sparging system in fluid communication with an inlet portion of the at least one electrolytic cell. A self-cleaning electrolytic cell system is further included.

公开(公告)号：US10800685B2

公开(公告)日：2020-10-13

申请号：US15994220

申请日：2018-05-31

申请人： UGSI Solutions, Inc.

发明人： Billie Fritz ,  Mark Kushman

IPC分类号： C02F1/00 ,  C02F1/68 ,  C02F1/76 ,  C02F101/12

摘要： A method of automatically controlling chloramine concentration in a body of water contained in a reservoir includes: (a) determining residual chloramine concentration in a water sample; (b) automatically engaging a supply of chlorine to add chlorine when (i) the residual chloramine concentration in the water sample is determined to be below a predetermined residual chloramine concentration set-point or (ii) below a chloramine concentration percentage of a predetermined residual chloramine concentration set-point; (c) determining residual chloramine concentration in one or more additional water samples after step (b); (d) determining the rate of change in chloramine concentration; and (e) if the rate of change in chloramine concentration is below a set rate of change in chloramine concentration (i) automatically engaging a supply of ammonia and the supply of chlorine to add both ammonia and chlorine to the body of water, or (ii) stopping the supply of chlorine after step (d).